KR950033554A - Apparatus and Method for Observing and Measuring Eye Refraction Errors - Google Patents

Abstract

A device and method for measuring the refractive error of an eye or the refractive error of a combination of an eye and a correction device. This device is particularly useful for evaluating refractive error in an eye with a contact lens positioned over the eye. The device is also useful for evaluating the actual time of refractive error in the eye during refractive therapy.

Description

Apparatus and Method for Observing and Measuring Eye Refraction Errors

Since this is an open matter, no full text was included.

1 is a schematic diagram of one embodiment of a refractive error measuring instrument of the present invention, and FIGS. 2 and 3 are views of an observation port of a spatial refractometer.

Claims (23)

Apparatus for observing and measuring the refractive error distribution of the eye or the refractive error of the eye in combination with the vision correction device, comprising: (a) a light source capable of generating a source light beam directed to the light source, and (b) between the light source and the objective lens Beam changing means located in the beam path and capable of modifying the source beam to generate a point or source beam of light beams directed to a light source, and (c) receive and transmit the source beam beam, the beam of observation beams in that direction An objective lens capable of receiving and transmitting light, and (d) a light source positioned within the beam path between the observation port and the objective lens and capable of modifying the observation beam to generate a point or narrow source beam of light beam directed to the observation port. Means for modifying the optical magnification of the device, by means of which the two-rays change means and (e) means that the device is substantially constant From limiting the scope of the error observation, it characterized in that that can cause an image of the eye and the measurement device. 2. The apparatus of claim 1, wherein the means for changing magnification comprises an auxiliary assembly movable relative to the objective lens, wherein the auxiliary assembly includes a light source and first and second beam changing means mounted on the rigid support. Characterized in that the observation and measurement device. The observation and measurement apparatus according to claim 1, wherein the magnifying force changing means comprises a set of replaceable objective lenses. An observation and measurement apparatus according to claim 1, wherein said first and second light changing means are devices selected from the group consisting of slits, holes and knife edges. The observation and measurement apparatus according to claim 4, wherein the first and second light changing means are narrow slits. 6. The device of claim 5, wherein the width of the narrow slit is less than 0.2 mm. The observation and measurement apparatus of claim 1 further comprising a fixation beam generating means directed towards the eye, wherein the fixation beam provides a point for focusing the eye. 8. The device of claim 7, further comprising means for overlapping paths of the source and stationary beams. 9. The apparatus of claim 8, wherein the means for overlapping the light paths comprises first and second beam splitters, wherein the first beam splitters are located between the first beam changing means and the objective lens. And a splitter is positioned between the first beam splitter and the objective lens. The fixed beam means of claim 9, wherein the fixed beam means comprises: (a) a second beam splitter located in the source beam path, (b) a fixed light source, (c) outside the source beam path and the fixed beam and mirrors. (D) a mirror positioned outside said source light path and between said fixing surface and said second beam splitter, whereby said fixing light source is directed through said aperture. And can transmit a fixed light beam to a mirror, wherein the fixed light beam can be reflected from the mirror to the second beam splitter and from the second beam splitter to the eye. The observation and measurement apparatus of claim 1 further comprising display means capable of receiving and displaying the observation light beam. 12. A device according to claim 11, wherein the display means comprises a camera that transmits a signal to a monitor, the monitor capable of displaying an image of light reflected from the eye. 12. The device of claim 11, further comprising a video recorder capable of receiving a signal from the camera and recording an image transmitted from the camera. The method of claim 1, further comprising a filter capable of blocking a particular wavelength of the light beam and allowing a preselected wavelength of the light beam to be positioned between the light source and the first light changing means and to pass through. Measuring device. 15. The device of claim 14, wherein the filter transmits a wavelength of 600 to 700 mm. The observation and measurement apparatus according to claim 1, wherein the distance between the first light beam changing means and the objective lens is substantially equal to the distance between the second light beam changing means and the objective lens. The observation and measurement apparatus according to claim 16, wherein the distance between the light beam changing means and the objective lens is 50 to 250 mm. The observation and measurement apparatus of claim 1 wherein the means for altering the magnification force comprises a set of replaceable objective lenses of different sizes. A method for determining refractive error in an area of the eye in combination with an eye or vision correction device, the method comprising the steps of: (a) generating a beam of light from which a source is selected from a group consisting of a point source and a slit source; Reflecting the light rays onto the retina of the eye and out of the eye through the objective lens by adjusting the light rays through the lens and through the eye, and (c) having slits formed longitudinally with respect to the eye Generating a neutralized viewing range by moving one ray changing means to alter the reflected ray, and (d) determining the refraction error of at least one area of the eye through which the ray passes, the determination being directed to the objective lens. And a function of the distance that the light travels from the changing means and the magnification magnification of the objective lens. 20. The method of claim 19, further comprising providing a fixed light source directed to the eye so that the eye focuses on the fixed light source. Apparatus for observing and measuring the refractive error distribution of the eye or the refractive error of the eye in combination with the vision correction device, comprising: (a) a light source capable of generating a source light beam directed to the light source, and (b) between the light source and the objective lens Beam changing means positioned in the beam path and capable of modifying the source beam such that the beam directed towards the light source generates a point or narrow source beam, and (c) transmits the source beam beam toward the object to receive and observe the source beam beam; A projection lens, an objective lens capable of receiving and transmitting the source beam beam and receiving and transmitting an observation beam beam in the direction thereof, and (e) located within the beam path between the observation port and the objective lens, the observation Second ray changing means capable of altering said observation ray to produce a narrow source beam or point of ray directed to said port; and (f) Means for changing the optical magnification of the device at all times, whereby the device is capable of generating an image of a human eye that actually defines an area of constant refractive error. The observation and measurement apparatus according to claim 21, wherein the light beam changing means is a slit. 23. The device of claim 22, wherein the width of the slit is less than 0.2 mm. ※ Note: The disclosure is based on the initial application.